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Chemglass Adapter, Bushing
Chemglass Adapter, Bushing Chemglass Bushing style adapter having a lower standard taper inner joint and outer joint ground in the bore of the adapter. Adapters having a 10/18 or 10/30 outer member in the bore are used to insert thermometers into apparatus. __________________________________________________________________________________________ ***Glassware Safety Disclaimer: BVV™ is not responsible for failure of glassware which must be inspected before and after every use because it may eventually develop imperfections or damage through normal usage, mishandling, and stress caused by temperature variations. If an imperfection or damage is noted while inspecting the glassware DO NOT use the glassware because it can fail causing bodily harm or damage to the surrounding area.*** ***All units are inspected for broken glass or parts before unit is shipped. If unit arrives damaged or glass is broken (this does not include minor imperfections or scuffs in glassware), Customer MUST contact BVV™ within 3 days of delivery to file a claim and receive a replacement part. If customer DOES NOT contact BVV™ within 3 days of delivery responsibility for replacement parts falls on the customer and they must pay for replacement pieces
$47.00$32.00
Chemglass Flushing Airfree Adapter
Chemglass Flushing Airfree Adapter Similar to AF-0509 but having a top outer joint and lower inner joint of the same size. Addition of the outer joint permits use of the larger sizes of the CG-3022 septum stoppers for repeated needle penetrations. Adapter also allows for evacuation and transfer of product into another vessel with the same size standard taper joints. Available with a choice of a 4mm glass high vacuum stopcock having a S.S. constant pressure retention device or 4mm PTFE stopcock. PLEASE NOTE: NOT SUPPLIED WITH SEPTUM STOPPER.
$80.00 - $95.00
Cap Stopper, O-Ring #15
Cap Stopper, O-Ring #15 Stopper, #15 O-Ring Joint, Airfree, Schlenk For use with the AF-0060 or AF-0061 manifolds or any Airfree® component with an o-ring as a closure. Supplied complete with one Viton O-Ring.
$25.00$15.00
Flask, Round Bottom, 1000mlL, 24/40, Heavy Wall, Single Neck
Flask, Round Bottom, 1000mlL, 24/40, Heavy Wall, Single Neck Round bottom, HEAVY WALL single short neck flask with a standard taper outer joint.
$56.00
VACUUM MANIFOLDS, INERT GAS, AIRFREE®, SCHLENK
Double bank manifold available in 3port configuration. Forward facing 0-8mm Chem-Vac™ Chem-Cap® valves permit easy operation of manifold inside of a fume hood. Main ports are spaced 100mm center to center with an additional 2 ports on the upper bank that can be used for gauging or sealed with AF-0210 stoppers. All connection ports are #15 o-ring joint connections that incorporate a greaseless o-ring seal. Manifold is modular in design allowing the user tremendous flexibility in performing experiments. Adapters from #15 o-ring joints to standard taper components, serrated hose connections or 3/8" Cajon® fittings are available to allow the ports to be used with existing glassware. Replacement Chem-Vac™ Chem-Cap® plug is listed below.
$950.00$700.00
Adapter M30x1.5 male to male
Adapter M30x1.5 male to male Adapter M30x1.5 male to male
$190.00
Adapter 8890069 M24x1.5 m to M30x1.5 f
Adapter 8890069 M24x1.5 m to M30x1.5 f 2 Adapters M24x1.5 male to M30x1.5 female
$440.00
Adapters M24x1.5 female to NPT 1/2" male
Adapters M24x1.5 female to NPT 1/2" male 2 Adapters M24x1.5 female to NPT 1/2″ male
$301.00
Cascade CVO-2 PRO Vacuum Package
Cascade CVO-2 PRO Vacuum Package The CVO-2 PRO Package is a 2 cubic foot, benchtop vacuum oven with a powerful, 5.4 CFM oil-free scroll pump. It is an ideal benchtop set up for vacuum drying or purging temp sensitive material but at faster rates, with deeper vacuum and optimized vapor flow rates. This complete system will liberate solvents, water or other unwanted compounds in a small batch, laboratory environments. CVO-2 PRO Package Includes: CVO-2 vacuum oven 5 aluminum shelves in 1″, 2″ and 3″ heights for varied configurations Agilent IDP7, 5.4CFM dry scroll pump MAXEVAP vacuum oven to pump connection kit. This special connection kit optimizes flow rates with a large 1″ dia exit path out of oven, large, vacuum rated 1″ diameter lines, a large 1″ diameter vacuum valve and into the 1″ diameter vacuum pump inlet. At no time is the out-gas load restricted or flow reduced. Also includes the KF-25 hardware. The CVO-2 PRO Package allows for easy expansion Easily connect another vacuum oven to the large pumping system to increase capacity and save on future costs. Both oven and pump can run off a single dedicated 120V / 1ph / 20 AMP circuit. Both oven and pump can be built/ configured to run on 220V / 1ph CVO-2 Vacuum Oven NRTL Certified by TUV 5 shelves (11.5″W x 19″D) in a flexible configuration. Stack-able and removable Stable temperature control. Digital temperature readout with temp sensor INSIDE the oven Bright LED lights in window for visibility of sensitive material Digital vacuum gauge reads in inches of mercury Simple, set-point control Smooth, quarter-turn vacuum and vent valves Rear KF-25 port allows for rapid MAXEVAP purging or running feedthroughs inside oven for monitoring 120V (220V available) Quality Tempered Rated Glass NGI-US to ANSI Z97.1.2007 156CFR/201 11 SGCC -2577 ½ UA Adjustable leveling feet ensure oven sits solid and level in the workspace CVO-2 Connections 3/8″ Barb for Vacuum Pump 1/4″ Barb for Venting (N2 Connection OK) KF-25 Port for feedthroughs or MAXEVAP Connection Kit Agilent IDP7 Dry Scroll Pump Features Oil-Free. Eliminates contamination risk. Will not smoke out exhaust, no filter required. Quiet (for a vacuum pump) 5.4 CFM pumping speed Ultimate vacuum: 2 x 10-2 Torr 120V or 220V / 1ph power – flexible configuration Adjustable “gas ballast” allows for better solvent tolerance / ingestion Maintenance requires the replacement of a single “tip seal”. Low cost of ownership. Powerful enough to accommodate a second vacuum pump Want Hotter Than 150°C (300°F)? CVO-2-HT (High Temp) has a temperature range Up to 220°C (428°F) The Cascade Difference Vacuum ovens have been around for decades. Basic vacuum ovens are mass-produced and sold by many large scale laboratory equipment distributors. But there are key differences between Cascade and other inexpensive, often imported vacuum ovens: Exceptional Temperature Control & Stability The Cascade CVO-2 uses a unique control logic not found in most lab grade vacuum ovens. The temperature probe is INSIDE the oven, which minimizes temperature overshoot and delivers best-in-class temperature stability and uniformity particularly in the low temperature ranges. Accurate, stable temps throughout the CVO-2 eliminate hot and cold spots, making accurate use of every inch of shelf space. Independent Over-temp Failsafe Protection The Cascade Sciences CVO-2 is equipped with a heating cutoff system that will automatically stop power to the heaters when the oven shelf temps exceed 200°C or 392°F. This protection system will provide peace of mind for overnight processing or unattended vacuum bake outs. NRTL Certification #U8 170464972 077. No Extra cost. The CVO-2 Vacuum Oven comes certified by the Nationally Recognized Test Lab, TUV. This certification is a requirement by many municipalities.CAN/CSA-C22.2 No. 61010-1:2012+UPD No. 1:2015-07 + UPD No. 2:2016-04CAN/CSA-C22.2 No. 61010-2-010:2015UL 61010-1:2012/R:2016-04UL 61010-2-010:2015EN 61010-1:2010EN 61010-2-010:2014 Rigorous Quality Assurance in an ISO Certified, USA Manufacturing FacilityCascade Sciences manufactures our ovens in Oregon, USA. We are proud of our ISO 9001 Certification/Accreditation. Each oven completes a series of quality assurance procedures before shipment:Chambers are vacuum tested after welding for vacuum integrityElectrical & mechanical safety is thoroughly tested in compliance with TUV requirementsFunctional testing verifies user settable items consistent with most lab protocols/usage models Temperature verification includes calibration & temp chamber uniformity following ASTM standards Units are cleaned and packed in ISTA tested, certified packaging materials Digital Vacuum Gauge The digital vacuum gauge installed on the CVO-2 is factory default set to read in inches of mercury (“Hg) with a scale of 0 – 29.9”Hg. Change the unit of vacuum measurement to read in a wide variety of units from mmHg, bar psi, kPa, cm2, mmH20. Zero out the vacuum gauge to calibrate for just above sea level adjustments. Equipped for Inert Gas Backfill. Built-In Safety Relief Introduce inert gasses such as nitrogen, argon, helium, etc. as part of your process via the 1/4″ rear vent barb. The maximum backfill pressure is 15psi at the inlet. In an overpressure situation, a simple, built-in safety relief allows gasses to escape via a spring loaded tempered window. Flexible Pumping / Feedthru Connection Ports The CVO-2 ovens offer two different vacuum oven connection points. The standard connection is a 3/8″ dia barb located at the rear of the oven. It is connected to the vacuum valve level on the front control panel. For even faster evaporation, purging or drying consider upgrading to the MAXEVAP connection kit. The MAXEVAP connection kit secures to the oven’s rear 1″ dia KF-25 port located on the back center of the chamber. The MAXEVAP connection never reduces flow by continuing with 1” diameter vacuum rated clear lines, a 1” dia KF-25 side mounted vacuum valve and KF-25 fittings and hardware. This KF-25 port can also be used to run temperature feedthroughs, or monitoring sensors inside the vacuum chamber during processing. Stackable Shelf Design For Maximum Temperature Conduction Under vacuum, there is no air inside a vacuum oven. Temperatures are achieved by a process of conduction and radiation to move temperatures into the product inside the oven. Cascade’s stackable shelf design makes the most of this opportunity by making the chamber longer and narrower, rather than square and supplies stackable shelves in multiple height configurations to allow for the fastest, most uniform transfer of heat. Ergonomically Designed, Easy Quarter-Turn Valves For anyone that has struggled with consistently turning the small, round, low-quality vacuum/vent valves, relief is in sight. You will love our large, quarter-turn vacuum/vent valves. Your wrists will thank you! ANSI Rated Tempered Glass + USA Made Steel Cascade ovens are made in Oregon, USA with high quality materials. Our glass is NGI-USA Tempered and certified to ANSI Z97.1.2007 16CFR / 201 11. Our door handles are rugged brushed steel, not plastic. Our vacuum vessels are constructed with American made steel. We’ve tried lower cost, imported steel, but over time, vacuum chambers made of lesser quality/lower tolerance material cannot withstand the flex and pressure changes of vacuum pumping/venting/purging. This can deteriorate vacuum integrity and the oven will lose its ability to hold vacuum. Door Gasket Options – Ideal For Your Process Cascade’s vacuum ovens come standard with a High Temp Silicone Door Gasket. We also offer a Solvent resistent BUNA gasket as well. Ask us about the variety of door gaskets we can supply based on your application: Silicone, BUNA, Viton, Fluorosilicone. Gaskets will eventually wear out. It’s ideal to keep a few spares on hand. Specifications Capacity Volume 1.67 Cubic Ft. | 47.2 Cubic Liters Interior 12”W x 20”D x 12"H 711mm x 609mm x 609mm Exterior 18.8” W x 24.5” D x 24.5”H 478mm x 622mm x 622mm Temperature Ranges Low-Temp Processing Range 26°F to 250°F (121°C) Temperature Uniformity +/- 1.5°F @ 105°F (40.5°C) Temperature Stability +/- 0.4°F @ 105°F(40.5°C) Heat Up / Stabilization Time to 250°F 120 minutes (to minimize overshoot) High-Temp CVO-10 (SVAC 9.3) Up to 428°F / 220°C Temperature Uniformity +/- 6.5% of setpoint *Note that ambient laboratory conditions can affect temp performance. Vacuum Valve Type Side Mounted Round Vacuum Vacuum Valve ¼ Turn Lever Vent Valve ¼ Turn Lever Lighting Interior LED Strips (Rated to 150C) On low temp CVO-10 only Window Type Glass Tempered NGI-US to ANSI Z97.1.2007 Vacuum Gauge Indication Digital 0 to 29.9″Hg Temperature Controller Screen Type Digital Set Point Accuracy Accurate Within 1°F Failsafe Independent Overtemp Failsafe Ports-Rear Vacuum 3/8″ Barb Vent 1/4″ Barb Auxiliary KF-25 Port Inert Gas Introduction Use 1/4″ Vent Barb 15 psi max inlet pressure Power Options Power 110V – 120V / 1ph / 8A 50/60Hz Cord? Cord Included Outlet Type NEMA 5-15R Power Outlet Shelving Removable? Removable Quantity Included Comes with 5 Each. Fixed. Detail Slide on rails, extend, stay in place. Aluminum Surface Area 11.5″W x 19″D Weight Capacity 50 lbs (22.7kgs) Weight Unit Weight 179 lb (81.2 kg) Shipping Weight 218 lbs (99 Kg) Shipping Details Dimensions 33″L x 33″W x 47″D Class Class 85 Certifications NRTL TUV #U8 170464972 077CAN/CSA-C22.2 No. 61010-1:2012+ UPD No. 1:2015-07 + UPD No. 2:2016-04CAN/CSA-C22.2 No. 61010-2-010:2015UL 61010-1:2012/R:2016-04UL 61010-2-010:2015EN 61010-1:2010EN 61010-2-010:2014 Vacuum Pump Agilent IDP3 Vacuum Pump Oil-Free, Scroll Pump 2.1 CFM 120V | 1ph Ultimate Pressure 29.9 ”Hg | 2.5 x10-1 torr Gasket Options Solvent Resistant BUNA Option Rated to 105°C (221°F) Viton Option Rated to 205°C (401°F) CVO-2-2 (220V) Power Specs 220 – 240V / 1ph / 4A 50/60 Hz (Cord Included) NEMA 6-15R Power Outlet Warranty Length 1 Year Exclusions Gaskets Not Incuded The CVO-2 comes in both low temp and high temp versions. The low temp version has excellent temperature uniformity for temperature sensitive material. The higher temp version, 220°C has a uniformity about 6.5% of setpoint. At time of order we will verify the high / low temp version you require.*Temperature performance specifications are preformed in empty ovens. Performance can vary in ovens containing product. Manual Pump Specs View NRTL Certification Vacuum Pressure Chart Vacuum Gauge Manual Calibration
$10,637.50
Media Bros SILICA GEL 60A - SILICA
SILICA GEL 60A FILTER MEDIA FOR BHO & ETHANOL EXTRACTION Compatible with normal phase chromatography solvent mixtures and DIY chromatography applications. Suggested for inline hydrocarbon CRC applications where a small plug of Silica Gel 60A is recommended, 1-10% m/m estimated extract in solution. TECHNICAL SPECS Solvent Type Hydrocarbon + Ethanol Color Remediation Level Heavy/High Pesticide Remediation Level High Selectivity/Polarity Level Less Selective/Most Polar Heavy Metal Remediation Yes Moisture Remediation Level Low Fats/Lipids/Waxes Level Medium Crystal Growth Fast Depth Filtration No Flow Rate Low Flow pH Level Neutral (pH 7) Best For Older Biomass, Low Quality Suitable for Reruns Yes Distillation Clean-up High Scrub
$29.50 - $575.00
STM LaunchPad Weighing Module
STM LaunchPad Weighing Module The First & Only Modular, Commercial Pre-Roll Scale The LaunchPad Weigher is the first and only modular, commercial pre-roll scale which weighs 72-rolls at once and in seconds. The LaunchPad functions as a stand alone machine or better as part of STM Canna’s complete pre-roll workflow system. 72 Rolls Weighed Simultaneously The LaunchPad commercial scale gives your staff the ability to view the weight of each individual pre-roll and identify rejects in an instant with a color-coded display, dramatically increasing production speed and output With this new innovative module, your operation will greatly benefit from reduced labor hours, the ability to maintain precise quality control over the weight of your pre-rolls and maximize profits attributed to under or over filling. Customizable Parameters Target Weight Paper weight % Tolerance View of Min. & Max. Weight by Grams Renowned Service & Support 1-Year Parts & Labor Warranty Dedicated STM Client Services Team Exclusive Client Portal with Library of Training Videos and Information Launchpad User Manual Launchpad Technical Specifications Launchpad Brochure
$35,000.00
The Prodigy
THE PRODIGY Description: 24CFM Single Stage 7.5HP 220V – 3 Phase (Single Phase Inverters Available) Inlet: 1.5” Triclamp Outlet: 1.5” Triclamp Weight: 750lbs Max bearing pressure: 250psi Max discharge pressure: 150psi Max delta pressure: 10x Many factors go into the rate of recovery on an extraction system. Not only is the pump size important, but also the evaporation rate of the solvents. If the solvents aren’t able to evaporate fast enough there will be nothing for the pump to transfer. Larger pumps have the capacity to transfer solvents faster, but only if the solvents are in an evaporated state. Because these pumps are so large they have a tendency to outpace the evaporation rate of most extraction systems. This lowers the inlet pressure (and the collection vessel pressures) which aids in speeding up the evaporation rate. Propane weighs less per gallon than butane (4.2 vs 4.9), however the vapor pressure is higher which generally results in a higher inlet pressure, and therefor a faster recovery per pound of gas used. These pumps are sized large enough to recover on the largest extraction systems with the highest evaporation rates, or can be used on multiple extraction systems at one time. For example this pump was used to recover 5lbs of butane on a 6” vessel with 70° of temperature. The process took ~12 minutes. However increasing the process to 3x 6” vessels with 5lbs of butane each(15lbs total), the process also took ~12 minutes. This is because the pump exceeds the evaporation rate of a single 6” column at 70° by more than 3x. Because the pump exceeds the evaporation rate a vacuum is pulled against the collection vessel, which in turn speeds up the evaporation rate. However once vacuum equilibrium is achieved, increasing the pump size will not speed up the process, but will allow for larger (or multiple) processes to be preformed in the same time frame. The next tab shows a table of recovery capacity with regards to inlet pressures. Higher inlet pressures result in substantially faster recovery times. Higher inlet pressures can be achieved by evaporating solvents faster by higher temperatures in collection vessels, or more surface area in collection vessels (larger diameter vessels, falling film, etc). Inlet Pressure LBS per Minute Butane LBS per Minute Propane -13 psi (Vacuum) .48 .35 -10 psi (Vacuum) .96 .7 -7 psi (Vacuum) 1.92 1.4 -4 psi (Vacuum) 2.88 2.09 0 psi 3.84 2.79 15 psi 7.69 5.59 29 psi 11.53 8.38
$14,999.99
The Prophet
The Prophet The Prophet is the industries largest and fastest LPG recovery pump. This mammoth pumps at 28 cfm (3.33x the size of a Corken T91) while running quietly at only 68db. Unlike the other recovery pumps available on the market this pump features a dual stage design which allows for greater delta pressure between the inlet and outlet of the pump. This allows for higher output pressures (propane) and lower inlet pressures (vacuum). The ability to pull vacuum against the inlet lowers the boiling point of the recovering solvents allowing them to vaporize faster, speeding up your recovery times. In addition, this pump can be used to pull initial vacuum in the extraction system. 28CFM Dual Stage 10HP Inlet: 1.5” Triclamp Outlet: 1.5” Triclamp Weight: 865lbs Max bearing pressure: 250psi Max discharge pressure: 150psi Max delta pressure: 10x Many factors go into the rate of recovery on an extraction system. Not only is the pump size important, but also the evaporation rate of the solvents. If the solvents aren’t able to evaporate fast enough there will be nothing for the pump to transfer. Larger pumps have the capacity to transfer solvents faster, but only if the solvents are in an evaporated state. Because these pumps are so large they have a tendency to outpace the evaporation rate of most extraction systems. This lowers the inlet pressure (and the collection vessel pressures) which aids in speeding up the evaporation rate. Propane weighs less per gallon than butane (4.2 vs 4.9), however the vapor pressure is higher which generally results in a higher inlet pressure, and therefor a faster recovery per pound of gas used. These pumps are sized large enough to recover on the largest extraction systems with the highest evaporation rates, or can be used on multiple extraction systems at one time. For example this pump was used to recover 5lbs of butane on a 6” vessel with 70° of temperature. The process took ~12 minutes. However increasing the process to 3x 6” vessels with 5lbs of butane each(15lbs total), the process also took ~12 minutes. This is because the pump exceeds the evaporation rate of a single 6” column at 70° by more than 3x. Because the pump exceeds the evaporation rate a vacuum is pulled against the collection vessel, which in turn speeds up the evaporation rate. However once vacuum equilibrium is achieved, increasing the pump size will not speed up the process, but will allow for larger (or multiple) processes to be preformed in the same time frame. The next tab shows a table of recovery capacity with regards to inlet pressures. Higher inlet pressures result in substantially faster recovery times. Higher inlet pressures can be achieved by evaporating solvents faster by higher temperatures in collection vessels, or more surface area in collection vessels (larger diameter vessels, falling, etc). Inlet Pressure LBS per Minute Butane LBS per Minute Propane -13 psi (Vacuum) .56 .41 -10 psi (Vacuum) 1.12 .81 -7 psi (Vacuum) 2.24 1.63 -4 psi (Vacuum) 3.36 2.44 0 psi 4.49 3.26 15 psi 8.97 6.52 29 psi 13.46 9.77
$17,999.99
ASME 12" x 30" Spool
ASME 12" x 30" Spool 350PSI @ 150F Working Pressure. 6" Tri Clamp ports on both ends, with various connections at the head. See ASME drawing in the link below for exact port sizes. ASME Full Document Package PDF Specifications and Certifications
$3,500.00
1/2" Insulon Vacuum Jacketed Hose, Low Pressure
1/2" Insulon Vacuum Jacketed Hose, Low Pressure Technical Specifications: Hose Size 1/2” ID DN (ISO 10380) 12 Product Category LP (Low Pressure) Inner Hose ID 0.472” Tube Stub OD 0.500” Tube Stub Thickness 0.035” Outer Hose OD 1.27” Static Bend Radius 3.33” Dynamic Bend Radius 10.24” Lengths 2 – 20’ Operating Temperature -270°C to 900°C (-454°F to 1652°F) Material 316L stainless steel Maximum Allowable Working Pressure (MAWP) by Temperature: Product Category Hose Size Max Temperature (C) Max Temperature (F) MAWP (PSI) Low Pressure (LP) 1/2" ID 21 70 72 Low Pressure (LP) 1/2" ID 66 150 67 Low Pressure (LP) 1/2" ID 93 200 64 Low Pressure (LP) 1/2" ID 121 250 62 Low Pressure (LP) 1/2" ID 149 300 60 Low Pressure (LP) 1/2" ID 166 330 58 Low Pressure (LP) 1/2" ID 204 400 56 Low Pressure (LP) 1/2" ID 232 450 56 Low Pressure (LP) 1/2" ID 260 500 55 Low Pressure (LP) 1/2" ID 316 600 55 Low Pressure (LP) 1/2" ID 371 700 55 Low Pressure (LP) 1/2" ID 427 800 54 Low Pressure (LP) 1/2" ID 482 900 53 Low Pressure (LP) 1/2" ID 538 1000 53 Low Pressure (LP) 1/2" ID 593 1100 48 Low Pressure (LP) 1/2" ID 649 1200 44 Low Pressure (LP) 1/2" ID 704 1300 40 Low Pressure (LP) 1/2" ID 760 1400 35 Low Pressure (LP) 1/2" ID 816 1500 28 Low Pressure (LP) 1/2" ID 899 1650 18
$260.00 - $1,172.00
3/4" Insulon Vacuum Jacketed Hose, Low Pressure
3/4" Insulon Vacuum Jacketed Hose, Low Pressure Technical Specifications: Hose Size 3/4” ID DN (ISO 10380) 20 Product Category LP (Low Pressure) Inner Hose ID 0.787” Tube Stub OD 0.750” Tube Stub Thickness 0.049” Outer Hose OD 1.62” Static Bend Radius 4.1” Dynamic Bend Radius 11.81” Lengths 2 – 20’ Operating Temperature -270°C to 900°C (-454°F to 1652°F) Material 316L stainless steel Maximum Allowable Working Pressure (MAWP) by Temperature: Product Category Hose Size Max Temperature (C) Max Temperature (F) MAWP (PSI) Low Pressure (LP) 3/4" ID 21 70 43 Low Pressure (LP) 3/4" ID 66 150 40 Low Pressure (LP) 3/4" ID 93 200 38 Low Pressure (LP) 3/4" ID 121 250 37 Low Pressure (LP) 3/4" ID 149 300 36 Low Pressure (LP) 3/4" ID 166 330 35 Low Pressure (LP) 3/4" ID 204 400 34 Low Pressure (LP) 3/4" ID 232 450 34 Low Pressure (LP) 3/4" ID 260 500 33 Low Pressure (LP) 3/4" ID 316 600 33 Low Pressure (LP) 3/4" ID 371 700 33 Low Pressure (LP) 3/4" ID 427 800 32 Low Pressure (LP) 3/4" ID 482 900 32 Low Pressure (LP) 3/4" ID 538 1000 31 Low Pressure (LP) 3/4" ID 593 1100 29 Low Pressure (LP) 3/4" ID 649 1200 26 Low Pressure (LP) 3/4" ID 704 1300 24 Low Pressure (LP) 3/4" ID 760 1400 21 Low Pressure (LP) 3/4" ID 816 1500 17 Low Pressure (LP) 3/4" ID 899 1650 11
$289.00 - $1,375.00
1" Insulon Vacuum Jacketed Hose, Low Pressure
1" Insulon Vacuum Jacketed Hose, Low Pressure Technical Specifications: Hose Size 1” ID DN (ISO 10380) 25 Product Category LP (Low Pressure) Inner Hose ID 0.984” Tube Stub OD 1.000” Tube Stub Thickness 0.065” Outer Hose OD 1.95” Static Bend Radius 5.08” Dynamic Bend Radius 13.39” Lengths 2 – 20’ Operating Temperature -270°C to 900°C (-454°F to 1652°F) Material 316L stainless steel Maximum Allowable Working Pressure (MAWP) by Temperature: Product Category Hose Size Max Temperature (C) Max Temperature (F) MAWP (PSI) Low Pressure (LP) 1" ID 21 70 43 Low Pressure (LP) 1" ID 66 150 40 Low Pressure (LP) 1" ID 93 200 38 Low Pressure (LP) 1" ID 121 250 37 Low Pressure (LP) 1" ID 149 300 36 Low Pressure (LP) 1" ID 166 330 35 Low Pressure (LP) 1" ID 204 400 34 Low Pressure (LP) 1" ID 232 450 34 Low Pressure (LP) 1" ID 260 500 33 Low Pressure (LP) 1" ID 316 600 33 Low Pressure (LP) 1" ID 371 700 33 Low Pressure (LP) 1" ID 427 800 32 Low Pressure (LP) 1" ID 482 900 32 Low Pressure (LP) 1" ID 538 1000 31 Low Pressure (LP) 1" ID 593 1100 29 Low Pressure (LP) 1" ID 649 1200 26 Low Pressure (LP) 1" ID 704 1300 24 Low Pressure (LP) 1" ID 760 1400 21 Low Pressure (LP) 1" ID 816 1500 17 Low Pressure (LP) 1" ID 899 1650 11
$311.00 - $1,559.00
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